Product details

VDS (V) 25 Configuration Single Rds(on) max at VGS=4.5 V (mOhms) 1.8 Rds(on) max at VGS=10 V (mOhms) 1.15 IDM - pulsed drain current (Max) (A) 200 QG typ (nC) 21 QGD typ (nC) 5.2 QGS typ (nC) 8.3 Package (mm) SON5x6 VGS (V) 16 VGSTH typ (V) 1.5 ID - silicon limited at Tc=25degC (A) 261 ID - package limited (A) 100 Logic level Yes
VDS (V) 25 Configuration Single Rds(on) max at VGS=4.5 V (mOhms) 1.8 Rds(on) max at VGS=10 V (mOhms) 1.15 IDM - pulsed drain current (Max) (A) 200 QG typ (nC) 21 QGD typ (nC) 5.2 QGS typ (nC) 8.3 Package (mm) SON5x6 VGS (V) 16 VGSTH typ (V) 1.5 ID - silicon limited at Tc=25degC (A) 261 ID - package limited (A) 100 Logic level Yes
VSON-CLIP (DQH) 8 30 mm² 5 x 6
  • Ultralow Qg and Qgd
  • Very Low On-Resistance
  • Low Thermal Resistance
  • Avalanche Rated
  • Pb-Free Terminal Plating
  • RoHS Compliant
  • Halogen-Free
  • Ultralow Qg and Qgd
  • Very Low On-Resistance
  • Low Thermal Resistance
  • Avalanche Rated
  • Pb-Free Terminal Plating
  • RoHS Compliant
  • Halogen-Free

This 25 V, 1.3 mΩ, 5 × 6 mm SON NexFET™ power MOSFET has been designed to minimize losses in power conversion applications.

This 25 V, 1.3 mΩ, 5 × 6 mm SON NexFET™ power MOSFET has been designed to minimize losses in power conversion applications.

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Technical documentation

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Type Title Date
* Data sheet CSD16415Q5 25-V N-Channel NexFET™ Power MOSFET datasheet (Rev. A) PDF | HTML 28 Sep 2015
Application note MOSFET Support and Training Tools (Rev. A) PDF | HTML 04 Nov 2022
Application note Tips for Successfully Paralleling Power MOSFETs PDF | HTML 31 May 2022
Technical article Understanding the benefits of “lead-free” power MOSFETs 08 Feb 2019
Application note QFN and SON PCB Attachment (Rev. B) PDF | HTML 24 Aug 2018
Technical article How to select a MOSFET - Hot Swap 06 Apr 2018
Application note Semiconductor and IC Package Thermal Metrics (Rev. C) PDF | HTML 19 Apr 2016
Technical article When to use load switches in place of discrete MOSFETs 03 Feb 2016
Technical article 48V systems: Driving power MOSFETs efficiently and robustly 08 Oct 2015
Application note Ringing Reduction Techniques for NexFET High Performance MOSFETs 16 Nov 2011

Design & development

For additional terms or required resources, click any title below to view the detail page where available.

Simulation model

CSD16415Q5 Unencrypted PSpice Model

SLPM348.ZIP (3 KB) - PSpice Model
Calculation tool

MOSFET-LOSS-CALC — Power Loss Calculation Tool for MOSFET Products

The MOSFET-LOSS-CALC is an Excel based tool that allows users to estimate power loss in a synchronous buck converter based on system and MOSFET parameters. For help selecting a discrete MOSFET or power block solution for your buck converter application, check out our Buck Converter NexFET™ (...)
Calculation tool

MOTOR-DRIVE-FET-LOSS-CALC — MOSFET power loss calculator for motor drive applications

This is an Excel-based MOSFET power loss calculator for brushless DC motor drive applications.
Calculation tool

NONSYNC-BOOST-FET-LOSS-CALC — Power loss calculation tool for non-synchronous boost converter

MOSFET power loss calculator for non-synchronous boost converter
Calculation tool

SYNC-BOOST-FET-LOSS-CALC — Power loss calculation tool for synchronous boost converter

MOSFET power loss calculator for synchronous boost converter applications.
Calculation tool

SYNC-BUCK-FET-LOSS-CALC — MOSFET power loss calculator for synchronous buck converter applications

Quickly trade off size, cost and performance to select the optimal MOSFET based on application conditions.
Calculation tool

SYNC-RECT-FET-LOSS-CALC — Power loss calculation tool for synchronous rectifier

MOSFET power loss calculator for synchronous rectifier applications
Reference designs

PMP11422 — High Density 72W Battery Powered Synchronous Boost Reference Design

PMP11422 is a synchronous boost power supply using the LM5121 controllers. The design accepts an input voltage of 5Vin to 8.6Vin, and boosts a 12Vout rail capable of sourcing 6A continuous current. The LM5121 integrates an input disconnection switch feature which allows boost short circuit (...)
Test report: PDF
Schematic: PDF
Reference designs

PMP7921 — 6V to 8.4V input, 12Vout @ 84A Peak Pulse Multi-Phase Boost Converter Reference Design

PMP7921 is a multi-phase boost converter. The design accepts an input voltage of 7V to 8V, and outputs 12V, capable of providing 84A peak current for 5msec. The design outputs 1000W of peak power, and peak efficiency reaches 96%.
Test report: PDF
Schematic: PDF
Reference designs

PMP8973 — 18Vdc-60Vdc Input, 3.3V/15A Active Clamp Forward, 1/8 Brick Reference Design

The PMP8973 reference design generates a 3.3V/15A output from an 18V to 60V telecom input. The UCC2897A controls an active clamp forward converter power stage. The low gate charge and low RDSon of the CSD16415Q5 and CSD18502Q5B, implemented as synchronous rectifiers, provides for a highly efficient (...)
Test report: PDF
Schematic: PDF
Reference designs

PMP10502 — High-Efficiency Dual-Phase Synch Boost Conv for Automotive Voltage Stabilizing App Reference Design

PMP10502 is a synchoronous dual phase boost converter accepting an input voltage of 6Vin to 8Vin and providing an output of 12Vout capable of supplying 17A continuous current (34A peak).
Test report: PDF
Schematic: PDF
Reference designs

PMP7916 — Power Solution for an Automotive Voltage Quality Module

The PMP7916 is a boost converter that can be used by a voltage quality module in a start-stop car to condition the battery voltage seen by electronic loads. For such a car to utilize existing electronic assemblies, input voltage to the assemblies is not allowed to dip to 6V during warm cranking or (...)
Test report: PDF
Schematic: PDF
Reference designs

PMP7919 — Power Solution for an Automotive Voltage Stabilizer

The PMP7919 is a 2-phase synchronous boost converter that can take a minimum 5.5V input and put out 11.5V or higher at 15A. It is used in the Voltage Quality Module in a start-stop vehicle where warm cranking is not allowed to cause certain electronic loads (such as the head unit) to power cycle. (...)
Test report: PDF
Schematic: PDF
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